CN116764017A - Control method, terminal equipment and storage medium of blood purification equipment - Google Patents

Abstract

The application discloses a control method of blood purification equipment, terminal equipment and a storage medium, wherein the method comprises the following steps: when detecting the selection operation of a user on one of the visual controls displayed on the display interface based on the configuration programming software platform, displaying the values of the characteristic attributes of the functional components corresponding to the selected visual control, wherein the visual control corresponds to the functional components of the blood purifying equipment one by one, and the values of the characteristic attributes of the functional components are obtained after the terminal equipment analyzes the blood purifying parameters of the functional components sent by the blood purifying equipment; when the modification operation of the user on the value of the characteristic attribute of the selected functional component is detected, the modified value is sent to the blood purification device, so that the selected functional component of the blood purification device operates according to the modified value. In this way, the application enables modular management, control and debugging of the functional components of the blood purification device.

Description

Control method, terminal equipment and storage medium of blood purification equipment

Technical field

The present application relates to the technical field of blood purification, and in particular to a control method, terminal equipment and storage medium for blood purification equipment.

Background technique

Blood purification equipment contains many functional components, such as blood pumps, dialysis pumps, heparin pumps, pressure detectors, liquid level detectors, etc. These functional components belong to the lower computer. When the user needs to test, debug or factory set these functional components At this time, for each functional component, the user needs to design and develop programs separately, and burn these programs into the blood purification equipment. Then the user must debug each functional component separately on the blood purification equipment. This is It brings great inconvenience to the control and debugging process of the functional components of the blood purification equipment.

Contents of the invention

Based on this, embodiments of the present application provide a control method, terminal device, and storage medium for blood purification equipment, which can perform modular management, control, and debugging of the functional components of the blood purification equipment.

In a first aspect, embodiments of the present application provide a method for controlling blood purification equipment. The method is applied to a terminal device, and the terminal device can communicate with the blood purification equipment. The method includes:

When it is detected that the user selects one of the multiple visual controls displayed on the display interface based on the configuration programming software platform, the value of the characteristic attribute of the functional component corresponding to the selected visual control is displayed, A plurality of the visual controls correspond one-to-one to a plurality of functional components of the blood purification equipment, and the values of the characteristic attributes of the plurality of functional components are multiple values sent by the terminal device to the blood purification equipment currently in operation. Obtained by analyzing the blood purification parameters of each of the functional components;

When the user's modification operation on the value of the characteristic attribute of the functional component corresponding to the selected visual control is detected, the user's modified value is determined, and the modified value is sent to the blood purification equipment, so that the The selected functional component of the blood purification device operates according to the modified value.

In a second aspect, embodiments of the present application provide a terminal device. The terminal device includes: a communication circuit, a memory, and a processor; the communication circuit is used for communication, the memory is used for storing computer programs, and the processor is used for The computer program is executed and when the computer program is executed, the control method of the blood purification device as described above is implemented.

In a third aspect, the present application provides a computer-readable storage medium that stores a computer program. When executed by a processor, the computer program causes the processor to implement the blood purification device as described above. Control Method.

In the embodiment of the present application, a configuration programming software platform is built on the terminal device. Users can develop functional components that meet individual needs based on the configuration programming software platform and set the value of the characteristic attributes of each functional component of the blood purification equipment. Modify, and control the functional components of the blood purification equipment to operate according to the modified values. In this way, convenient and precise adjustment of the blood purification equipment can be achieved, and the functional components of the blood purification equipment can be highly modularized. Management, users can modify the values of characteristic attributes of functional components according to actual needs, quickly develop functional components of blood purification equipment, and simplify the control process of blood purification equipment.

It should be understood that the above general description and the following detailed description are only exemplary and explanatory, and do not limit the present application.

Description of drawings

Figure 1 is a schematic diagram of the basic principles of an embodiment of the blood purification equipment in the control method of the blood purification equipment of the present application;

Figure 2 is a schematic flow chart of an embodiment of the control method of the blood purification equipment of the present application;

Figure 3 is a schematic diagram of an embodiment of wireless communication between the blood purification equipment and the terminal device in the control method of the blood purification equipment of the present application;

Figure 4 is a schematic diagram of an embodiment of a display interface based on a configuration programming software platform in the control method of the blood purification equipment of the present application;

Figure 5 is a schematic diagram of an embodiment of the display area of the display interface based on the configuration programming software platform in the control method of the blood purification equipment of the present application;

Figure 6 is a schematic diagram of an embodiment of triggering two related visual controls on a display interface based on a configuration programming software platform in the control method of the blood purification equipment of the present application;

Figure 7 is a schematic diagram of an embodiment of a new project on the display interface based on the configuration programming software platform in the control method of the blood purification equipment of the present application;

Figure 8 is a schematic diagram of one embodiment of the components of the treatment interface and the control layout of the treatment interface in the control method of the blood purification equipment of the present application;

Figure 9 is a schematic diagram of one embodiment of the components of the treatment interface that modify the display screen in the control method of the blood purification equipment of the present application;

Figure 10 is a schematic diagram of an embodiment of modifying the control layout of the treatment interface of the display screen in the control method of the blood purification equipment of the present application;

Figure 11 is a schematic diagram of an embodiment of the treatment interface displayed on the display screen in the control method of the blood purification equipment of the present application;

Figure 12 is a schematic diagram of an embodiment of setting the screen saver mode on the display interface based on the configuration programming software platform in the control method of the blood purification equipment of the present application;

Figure 13 is a schematic diagram of an embodiment of displaying characteristic attributes of at least one functional component of the blood purification equipment on a display interface based on a configuration programming software platform in the control method of the blood purification equipment of the present application;

Figure 14 is a schematic diagram of an embodiment of the screensaver interface of the display screen in the control method of the blood purification equipment of the present application.

Detailed ways

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. Obviously, the described embodiments are part of the embodiments of the present application, rather than all of the embodiments. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of this application.

The flowcharts shown in the accompanying drawings are only examples and do not necessarily include all contents and operations/steps, nor are they necessarily performed in the order described. For example, some operations/steps can also be decomposed, combined or partially merged, so the actual order of execution may change according to actual conditions.

In order to better explain the embodiments of the present application, the technical content related to the configuration and programming software platform and the functional components of the blood purification equipment in the embodiments of the present application will be introduced below.

The embodiments of this application mainly perform modular management of various functional components of the blood purification equipment based on the configuration programming software platform. Current programming methods include: instructional, graphical, configuration and other methods; the configuration programming software platform adopts the configuration programming method. The configuration programming method is vivid, intuitive and simple. Using the tools and methods provided in the platform, It can complete a specific task in the project, and the configuration programming software platform has been widely used in various industrial fields. The configuration programming software platform has continuity, scalability, encapsulation and versatility. It is widely used in industrial automation. It can usually be selected from the control library during the development process, and the configuration programming software platform uses ActiveX control extensions. The properties, methods, and events of the control have been loaded on the configuration programming software platform in advance. The user uses the control extension method to build the component control environment of the blood purification equipment on the configuration programming software platform, providing control of the blood purification equipment. The process brings great convenience.

Exemplarily, Figure 1 shows the basic principle of blood purification equipment. The functional components of blood purification equipment refer to: power components (such as blood pumps, heparin pumps), detection components (such as blood detectors, bubble detectors, liquid level detector), transportation components (such as arterial pipelines, venous pipelines), on-off control components (such as arterial clamps, venous clamps), heating components (such as heaters), display components (such as display screens), etc. Each functional component implements different functions on the blood purification equipment. For example, the blood pump is used to control the blood flow and blood flow direction in the arterial pipeline. The characteristic attributes of each functional component reflect the operating parameters of this functional component, such as the blood pump. The characteristic attributes of the blood pump include: the rotation speed of the blood pump and/or the steering direction of the blood pump. The characteristic attributes of the arterial clamp include: the on-off state of the artery clamp; the value of the characteristic attribute of the functional component represents: the selected value of the characteristic attribute of the functional component. , for example, when the functional component is a blood pump, the value of the rotation speed of the blood pump is: 10r/min, then 10r/min is the value of the characteristic attribute of the blood pump; and for example, when the functional component is an artery clamp, the value of the artery clamp The value of the on-off state is: off state, then the off state is the value of the characteristic attribute of the arterial clamp. When blood purification equipment is used in practice, all functional components of the blood purification equipment need to be debugged or inspected. Related technologies can only develop separate programs for each functional component and conduct host computer debugging, which limits the control of the blood purification equipment. , the debugging process brings great inconvenience. Therefore, the embodiment of the present application applies the characteristics of the configuration programming method to the control process of the blood purification equipment, and then performs modular management of the functional components of the blood purification equipment, and can modify the functions of the blood purification equipment on the configuration programming software platform. The value of the characteristic attribute of the functional component.

It should be noted that Figure 1 shows the basic principle of blood purification equipment. Blood purification equipment can be applied in different blood purification treatment modes and can be expanded on the basis of Figure 1. When blood purification equipment is used in different blood purification treatment modes, When the blood purification treatment mode is used, the functional components of the blood purification equipment will also be different; for example, when the blood purification equipment is used in the hemodialysis treatment mode, the transportation components include: arterial pipelines, venous pipelines, dialysis pipelines, and waste liquid pipes. path; the detection components include: blood detector, bubble detector, liquid level detector, and blood leakage detector; for another example, when the blood purification equipment is used in plasma exchange treatment mode, the detection components include: blood detector, bubble detector, Liquid level detector, blood leakage detector, weighing detector. Regardless of whether the blood purification equipment is used in any blood purification treatment mode, it will be expanded based on the schematic diagram in Figure 1.

Referring to Figure 2, Figure 2 is a schematic flow chart of an embodiment of a control method for blood purification equipment of the present application. The method is applied to terminal equipment. Terminal equipment includes but is not limited to: desktop computers, mobile phones, tablet computers, notebook computers, etc. The terminal device can communicate with the blood purification device, and the terminal device and the blood purification device can communicate in a wired manner or in a wireless manner. Data interaction can be achieved when the terminal device communicates with the blood purification device. In some embodiments, as shown in Figure 3, a wireless communication interface is provided on the blood purification device; the wireless communication interface of the blood purification device communicates with the terminal device in a wireless manner.

The method includes: step S101 and step S102.

Step S101: When it is detected that the user selects one of the multiple visual controls displayed on the display interface based on the configuration programming software platform, display the characteristic attributes of the functional component corresponding to the selected visual control. The plurality of visual controls correspond to the plurality of functional components of the blood purification equipment one-to-one, and the values of the characteristic attributes of the plurality of functional components are the values of the terminal equipment for the blood purification equipment currently in operation. The blood purification parameters of the sent multiple functional components are obtained after analysis.

After a communication connection is established between the terminal device and the blood purification device, when the blood purification device is in operation, data interaction can be realized between the terminal device and the blood purification device: the blood purification device communicates with The terminal device sends blood purification parameters of multiple functional components for analysis by the terminal device. It should be noted that the interaction process between the terminal device and the blood purification device basically runs through the entire control process of the blood purification device by the terminal device.

Specifically, after the blood purification equipment is installed in a tube, the blood purification equipment can be controlled to start operating. The operating state of the blood purification equipment can include: a pre-flush stage, a blood purification stage, and a blood return stage. In the blood purification stage, blood purification treatment is started on the patient's blood through the blood purification equipment; when the blood purification equipment is in operation, the blood purification equipment generates blood purification parameters. Optional, blood purification parameters include: blood pump speed, heparin pump speed, liquid level detection value of the liquid level detector, blood test results of the blood detector, heating power of the heater, etc.; when the terminal device receives blood When purifying parameters, the blood purification parameters can be processed and analyzed in depth on the terminal device.

The blood purification parameters of the blood purification equipment contain a large amount of data. The blood purification parameters of the blood purification equipment can reflect the operating status of the blood purification equipment in all aspects. After analyzing the blood purification parameters of the blood purification equipment, the blood purification parameters of the blood purification equipment are obtained. The physical meaning represented by the parameters, such as the characteristic attributes of the functional component, represents the operating characteristics of the functional component in a certain aspect.

Please refer to Figure 4. After the configuration and programming software platform is built on the terminal device, configuration programming can be performed on the configuration and programming software platform. Multiple visual controls can be displayed on the display interface based on the configuration programming software platform. When the user triggers the visual control, the functional components corresponding to the triggered visual control can be developed and tested.

Specifically, when the user performs a selection operation on one of the multiple visual controls displayed on the display interface based on the configuration programming software platform (i.e., triggers one of the visual controls), it means that the user needs to respond to the selected (i.e., The functional component corresponding to the visual control that is triggered) is controlled and debugged; therefore, the value of the characteristic attribute of the functional component corresponding to the selected visual control is displayed. For example, when the user triggers the first visual control corresponding to the blood pump, the value of the blood pump's rotational speed and the value of the blood pump's steering are displayed on the display interface based on the configuration programming software platform. The user sees the rotational speed of the blood pump. The operating status of the blood pump can be known by the value of the value and the value of the blood pump's steering direction; therefore, the display interface based on the configuration programming software platform can see the value of the characteristic attribute of the triggered functional component, and the user can more intuitively Control the running status of functional components.

Step S102: When it is detected that the user modifies the value of the characteristic attribute of the functional component corresponding to the selected visual control, determine the modified value by the user, and send the modified value to the blood purification device. Equipment that causes the selected functional component of the blood purification equipment to operate according to the modified value.

Specifically, when the user modifies the value of the characteristic attribute of the corresponding functional component on the display interface based on the configuration programming software platform, and the terminal device detects the user's modification operation on the value, it determines the value modified by the user. , sending the modified value to the blood purification equipment, so that the selected functional components of the blood purification equipment operate according to the values, which facilitates testing and control of the functional components of the blood purification equipment. Therefore, when the blood purification equipment is in operation, by triggering the visual controls on the display interface based on the configuration programming software platform, the values of the characteristic attributes of the functional components of the blood purification equipment can be adaptively adjusted to realize the functions of the blood purification equipment. Modular management and modular debugging functions of components.

In some embodiments, the display interface based on the configuration programming software platform includes a first display area, a second display area and a third display area, the plurality of visual controls are displayed in the first display area, and the Each of the visual controls in the first display area is in an uneditable state.

At this time, step S101: when it is detected that the user selects one of the multiple visual controls displayed on the display interface based on the configuration programming software platform, display the functional component corresponding to the selected visual control. The value of the characteristic attribute may include: sub-step S101A1 and sub-step S101A2.

Sub-step S101A1: When a user's drag operation on one of the visual controls is detected, drag the selected visual control in the first display area to the second display area for display, and control the The visual controls displayed in the second display area are in an editable state.

Sub-step S101A2: Display in the third display area the value of the characteristic attribute of the functional component corresponding to the visual control displayed in the second display area.

Specifically, please refer to Figure 5. Three display areas are set on the display interface based on the configuration programming software platform. The visual controls displayed in the first display area are all in a non-editable state. In the non-editable state, when the user triggers the visual control When the user performs a drag operation on one of the visual controls and drags the visual control to the second display area, the value of the characteristic attribute of the functional component corresponding to the visual control will not be displayed on the third display area. The visual controls displayed in the second display area are all in an editable state. In the editable state, when the user triggers the visual control, the value of the characteristic attribute of the functional component corresponding to the visual control will be displayed in the third display area, and the user can Modify the value of the characteristic attribute of the corresponding functional component to control the operating status of the functional component of the blood purification equipment. Therefore, the embodiment of the present application uses a drag-and-drop method to control the visual controls on the display interface based on the configuration programming software platform, thereby realizing the configuration programming function of each functional component of the blood purification equipment.

The application scenario of the embodiment of the present application will be explained below with reference to Figure 5. When the user needs to modify the value of the rotation speed of the blood pump of the blood purification equipment, the user drags the visual control corresponding to the blood pump to the second display area, and detects After the user's drag operation, the dragged visual control is displayed in the second display area, the visual control displayed in the second display area is set to an editable state, and the visual control displayed in the second display area is displayed in the third display area. The values of the characteristic attributes of the blood pump corresponding to the visual control, where the characteristic attributes of the blood pump include: the rotation speed of the blood pump, the steering of the blood pump, and the rated power of the blood pump; displayed in the third display area and displayed in the second display area The visual control corresponds to the blood pump speed value, the blood pump steering value, and the blood pump rated power value; the user can modify the blood pump speed value in the third display area, such as changing the blood pump speed value to the blood pump speed value. The value of the pump speed is modified to: 15r/min. The terminal device sends the modified value of the blood pump speed to the blood purification equipment, and controls the blood pump of the blood purification equipment to operate according to the modified value to complete the The process of modifying the rotation speed of the blood pump of the blood purification equipment.

In some embodiments, in step S102, when the user's modification operation on the value of the characteristic attribute of the functional component corresponding to the selected visual control is detected, the modified value by the user is determined, and the modified value is The value of is sent to the blood purification equipment, which may include: sub-step S1021 and sub-step S1022.

Sub-step S1021: Obtain the numerical range of the characteristic attribute of the selected functional component.

Sub-step S1022: When it is detected that the user modifies the value of the characteristic attribute of the functional component corresponding to the selected visual control, determine the modified value by the user. If the modified value is in the selected If the value range of the characteristic attribute of the functional component is determined, the modified value is sent to the blood purification device.

Specifically, when it is detected that the user triggers the visual control, the numerical range of the characteristic attribute of the functional component corresponding to the selected visual control can be obtained. This numerical range represents the safe value range of the characteristic attribute of the functional component. Only when the modified When the value of the characteristic attribute of the corresponding functional component is within the numerical range of the characteristic attribute, the modified value will be sent to the blood purification equipment, so that the functional components of the blood purification equipment can be controlled to operate according to the modified value.

For example, when the user needs to modify the rotation speed of the blood pump, the user triggers the visual control corresponding to the blood pump. After detecting the user's selection operation, the value range of the blood pump rotation speed is obtained: 5r/min ~ 15r/min , when it is detected that the user has modified the value of the blood pump's rotational speed, the embodiment of the present application will determine whether the modified blood pump's rotational speed is between 5r/min and 15r/min. The value of the modified blood pump speed is between 5r/min and 15r/min, then the modified blood pump speed is sent to the blood purification equipment; when it is determined that the modified blood pump speed is not between 5r/min and 15r/min, Then the modified value of the rotational speed of the blood pump will not be sent to the blood purification equipment to prevent the functional components of the blood purification equipment from being in a fault state. Therefore, the embodiment of the present application can determine whether the value of the characteristic attribute of the functional component is in a fault state, which greatly ensures the safety of the value of the characteristic attribute of the functional component.

It should be noted that the numerical range of the characteristic attributes of functional components can be obtained after many clinical technical tests. For example, the numerical range of the blood pump's rotational speed is obtained after many clinical technical tests on the blood pump's rotational speed. data.

In some embodiments, the method further includes: step S103 and step S104.

Step S103: Perform data source identification on the blood purification parameters sent by the blood purification equipment to obtain blood purification parameters for each of the functional components.

Specifically, the blood purification parameters sent by the blood purification equipment include blood purification parameters generated by all functional components. Therefore, the embodiment of the present application needs to distinguish the blood purification parameters of different functional components, and the blood purification parameters of different functional components will not overlap with each other. , based on the blood purification parameters of each functional component, the actual operating status of the corresponding functional component can be judged. For example, when the functional component is a blood pump, after identifying the data source of the blood purification parameters of the blood purification equipment, it is determined which blood purification parameters come from the blood pump, and the steering of the blood pump and the speed of the blood pump are identified; among them, the steering of the blood pump Together with the speed of the blood pump, it constitutes the blood purification parameters of the blood pump. Therefore, in the embodiment of the present application, after identifying the data source of the blood purification parameters, the blood purification parameters can be functionally divided according to the functional types of the functional components.

Step S104: Classify the blood purification parameters of each functional component into data types to obtain characteristic attributes of each functional component.

After identifying the data source of the blood purification parameters, the blood purification parameters of different functional components can be distinguished, and then the data types of the blood purification parameters of each functional component can be divided to distinguish which characteristic attributes of the functional components the blood purification parameters belong to. For example, after obtaining the blood purification parameters of the blood pump, it is necessary to divide the data types of the blood purification parameters of the blood pump. This data type division can determine what types of data the blood purification parameters of the blood pump contain. One type of The data corresponds to a characteristic attribute of the blood pump. After dividing the data types of the blood purification parameters, all the characteristic attributes of the functional components can be obtained. For example, the characteristic attributes of the blood pump include: the rotation speed of the blood pump and the steering direction of the blood pump. On the display interface based on the configuration programming software platform, the value of each characteristic attribute of the functional component can be modified separately to realize the configuration programming function of the functional component of the blood purification equipment.

It should be noted that data processing algorithms in related technologies can be used to identify data sources for blood purification parameters and classify data types for blood purification parameters. For example, in the data source identification process, an identifier is set for each functional component. symbol, when the blood purification equipment outputs blood purification parameters, each blood purification parameter has an identifier. When the terminal device receives the blood purification parameters, each blood purification parameter will be converted into a parameter based on the identifier of each blood purification parameter. Belong to the corresponding functional components to realize the data source identification function. For example, in the data type classification process, after distinguishing the character length and character type of each blood purification parameter of the functional component, the characteristic attributes of each functional component can be obtained to complete the data type classification function.

In some embodiments, step S101: when a user's selection operation for one of the multiple visual controls displayed on the display interface based on the configuration programming software platform is detected, the selected visual control is displayed. The value of the characteristic attribute of the corresponding functional component may also include: when a user's selection operation for one of the multiple visual controls displayed on the display interface based on the configuration programming software platform is detected and is selected If the functional component corresponding to the visual control is related to other functional components, the values of the characteristic attributes of the functional component corresponding to the selected visual control and the values of other functional components that are related to the selected functional component are displayed.

Specifically, in blood purification equipment, certain functional components are related to each other. Taking Figure 1 as an example, the blood pump and the heparin pump are related. The value of the characteristic attribute of the blood pump is related to the value of the heparin pump. There is also a correlation between the values of the characteristic attributes. For example, when the value of the blood pump's speed changes, the value of the heparin pump's speed will also change accordingly. This can ensure that the blood pump's speed is consistent with the heparin. The speed of the pump can be kept matched, the blood flow in the arterial line and the heparin flow output by the heparin pump can be matched with each other. The blood in the arterial line can always maintain good blood anticoagulation effect, ensuring the patient's safety. The safety of blood purification treatments.

In some embodiments, the functional components of the blood purification equipment include a blood pump and a heparin pump, and the plurality of visual controls include a first visual control and a second visual control that are related, and the first visual control is related to the The blood pump has a one-to-one correspondence, and the second visual control has a one-to-one correspondence with the heparin pump; the method further includes: steps S105 to S108.

Step S105: When a user's selection operation on the first visual control displayed on the display interface based on the configuration programming software platform is detected, display the value of the rotation speed of the blood pump and the rotation speed of the heparin pump. Take value.

Step S106: When the user's modification operation for the value of the rotation speed of the blood pump is detected, the modified value of the rotation speed of the blood pump is determined, and the modified value is determined based on the modified value of the rotation speed of the blood pump. The value of the rotation speed of the heparin pump is sent to the blood purification equipment, so that the blood pump of the blood purification equipment is modified according to the modification. The heparin pump of the blood purification equipment is operated according to the modified rotational speed of the blood pump, so that the heparin pump of the blood purification equipment operates according to the modified rotational speed of the heparin pump.

Step S107: When a user's selection operation on the second visual control displayed on the display interface based on the configuration programming software platform is detected, display the value of the rotation speed of the heparin pump and the rotation speed of the blood pump. Take value.

Step S108: When the user's modification operation for the value of the rotation speed of the heparin pump is detected, the modified value of the rotation speed of the heparin pump is determined, and the modified value is determined based on the modified value of the rotation speed of the heparin pump. The value of the speed of the blood pump, the modified value of the speed of the heparin pump and the value of the modified speed of the blood pump are sent to the blood purification equipment, so that the heparin pump of the blood purification equipment is modified according to The heparin pump is operated according to the modified rotational speed value, so that the blood pump of the blood purification equipment operates according to the modified rotational speed value of the blood pump.

As shown in Figure 6, when the user triggers the first visual control corresponding to the blood pump, the value of the rotation speed of the blood pump and the value of the rotation speed of the heparin pump are displayed on the display interface based on the configuration programming software platform. value, when the user modifies the value of the blood pump speed, the value of the heparin pump speed is modified according to the modified blood pump speed value, and the modified blood pump speed value and the modified heparin The value of the rotational speed of the pump is sent to the blood purification equipment, the blood pump of the blood purification equipment is controlled to operate according to the modified rotational speed of the blood pump, and the heparin pump of the blood purification equipment is controlled to operate according to the modified heparin pump. Run according to the value of the rotation speed. For another example, when the user triggers the first visual control corresponding to the heparin pump, the value of the rotation speed of the blood pump and the value of the rotation speed of the heparin pump are displayed on the display interface based on the configuration programming software platform. To modify the value of the speed of the heparin pump, modify the value of the speed of the blood pump according to the value of the modified speed of the heparin pump, and combine the value of the modified speed of the heparin pump with the value of the modified speed of the blood pump. The value is sent to the blood purification equipment, the heparin pump of the blood purification equipment is controlled to operate according to the modified heparin pump speed value, and the blood pump of the blood purification equipment is controlled to operate according to the modified blood pump speed value. Through the above method, a safer control function can be achieved for the blood purification equipment, and the speed of the blood pump and the speed of the heparin pump always maintain a safe correlation.

It should be noted that the correlation between the two functional components is determined by the operating characteristics of the blood purification equipment itself and the patient's physiological characteristic parameters, such as the correlation between the speed of the blood pump and the speed of the heparin pump. Determined by the patient's weight and total blood volume. The correlation between the two functional components will not be described in detail here.

In some embodiments, the method further includes: step S109 to step S111.

Step S109: Perform programming modeling based on each functional component of the blood purification equipment to obtain visual controls corresponding to each functional component.

Specifically, as shown in Figure 1, each functional component can use a specific graphic representation. After programming and modeling each functional component, the visual control corresponding to each functional component can be obtained, where each visual control All are displayed graphically so that users can more intuitively control the functional components of the blood purification equipment. And mathematical modeling is performed based on the characteristic attributes of each functional component to obtain a mathematical model of the characteristic attributes of each functional component. For example, as shown in Figure 4, the visual controls displayed on the display interface based on the configuration programming software platform are graphically identified, so that the user can more intuitively and clearly control the visual controls on the configuration programming software platform. control.

Step S110: Package all visual controls of the blood purification equipment to obtain a plug-in set of the blood purification equipment.

Specifically, after obtaining the visual controls corresponding to each functional component and packaging, the plug-in set of the blood purification equipment represents all the operable visual controls of the blood purification equipment. Then, when the plug-in set of the blood purification equipment is controlled, the plug-in set of the blood purification equipment can be controlled. All functional components of the blood purification equipment are controlled to facilitate integrated control of the blood purification equipment.

Step S111: Store the plug-in set of the blood purification equipment in the database of the configuration programming software platform.

Among them, the database of the configuration programming software platform has a data storage function. The plug-in collection of the blood purification equipment is stored in advance in the database of the configuration programming software platform through the database, so that the user can call the plug-in collection in the database at any time.

At this time, in step S101, when it is detected that the user selects one of the multiple visual controls displayed on the display interface based on the configuration programming software platform, the function corresponding to the selected visual control is displayed. Before taking the value of the characteristic attribute of the component, step S112 may also be included.

Step S112: When a plug-in set retrieval operation input by the user is detected, display multiple visual controls in the plug-in set on a display interface based on the configuration programming software platform.

Specifically, when the user calls up the plug-in set stored in the database on the display interface based on the configuration programming software platform, it means that the user needs to perform configuration programming control on the functional components of the blood purification equipment. The visual controls are controlled separately on the display interface of the platform.

In order to better explain the embodiments of the present application, the application scenarios of the embodiments of the present application are specifically described below through Figure 7. After the configuration programming software platform is built on the terminal device, each functional component of the blood purification equipment is programmed and modeled. And after all visual controls are packaged, a plug-in collection of blood purification equipment is obtained. The plug-in collection of blood purification equipment is stored in the database on the memory of the display screen. When the user needs to call the plug-in collection of blood purification equipment, the user triggers the plug-in collection based on the configuration. Click the "New Project" button on the display interface of the programming software platform, and then the user triggers the "New Project" button on the display interface of the configuration programming software platform. As shown in Figure 7, on the display interface of the configuration programming software platform The visual controls in the plug-in collection will be displayed, as shown in Figure 4, to facilitate integrated management and control of the functional components of the blood purification equipment.

In some embodiments, the plurality of functional components are a plurality of functional components of a component set under the blood purification treatment stage currently in which the blood purification device is currently located.

Therefore, the method may further include: step S113 and step S114.

Step S113: Determine the blood purification treatment stage in which the blood purification equipment is located, where the blood purification treatment stage can be divided into: pre-flush stage, blood purification stage, and blood return stage.

Specifically, after the blood purification equipment is powered on, it will go through different blood purification treatment stages. The pre-flush stage refers to: flushing and filling the pipelines of the blood purification equipment and the blood purifier respectively with pre-flush liquid to eliminate Impurities and gases in pipelines and blood purifiers. The blood purification stage refers to the blood purification of the patient's blood through blood purification equipment to achieve the effect of purifying the blood. The blood return stage refers to: when the blood purification equipment is completed, all the blood remaining in the blood purification equipment's pipelines and blood purifier needs to be returned to the patient's body. At each stage of blood purification treatment, different control methods are required for the blood purification equipment.

Step S114: Establish a component set for each blood purification treatment stage, where the component set includes multiple functional components.

Specifically, in different blood purification treatment stages, the operating status of the functional components of the blood purification equipment is different. For example, in the pre-flush stage and blood return stage, the heparin pump is in a stopped state; in the blood purification stage, the heparin pump is in a stopped state. operating status. For another example, in the pre-flush stage, the liquid level detector is in a stopped state; in the blood purification stage and blood return stage, the liquid level detector is in a running state. The component set of each blood purification treatment stage represents the functional components in the running state. The component set does not include the functional components in the stopped state. In this way, the functional components in the running state can be selected to facilitate the functional components of the blood purification equipment. More precise and convenient control.

At this time, in step S112, displaying multiple visual controls in the plug-in set on the display interface based on the configuration programming software platform may also include: displaying multiple visual controls on the display interface based on the configuration programming software platform. , wherein each of the visual controls has a one-to-one correspondence with each functional component of the component set under the blood purification treatment stage.

Specifically, the functional components of the blood purification equipment are configured and debugged on the configuration programming software platform. In each blood purification treatment stage, the functional components of the component set are different. In the configuration programming software platform-based The visual controls displayed on the display interface correspond to each functional component of the component collection. Therefore, the functional components corresponding to all the visual controls displayed on the display interface based on the configuration programming software platform can include all functional components in the component collection. , in order to facilitate precise configuration programming control of blood purification equipment.

The specific implementation of the above steps will be described below through a specific application scenario. When the blood purification equipment is in the pre-flush stage, the component set of the blood purification equipment includes: blood pump, arterial pipeline, venous pipeline, arterial clamp, venous clamp, and display screen; when the blood purification equipment is in the blood purification stage, the blood purification equipment The component set of the equipment includes: blood pump, heparin pump, blood detector, bubble detector, liquid level detector, arterial line, venous line, arterial clamp, venous clamp, heater, display screen; when the blood purification equipment is in During the blood return stage, the component set of the blood purification equipment includes: blood pump, blood detector, bubble detector, liquid level detector, arterial pipeline, venous pipeline, arterial clamp, venous clamp, and display screen.

When it is determined that the blood purification equipment is in the pre-flush stage, a set of components in the pre-flush stage is established, and multiple visual controls are displayed on the display interface based on the configuration programming software platform, where each visual control is related to the component in the pre-flush stage. Each functional component of the collection (the functional components are: blood pump, arterial pipeline, venous pipeline, arterial clamp, venous clamp, display screen) corresponds to one-to-one; in the pre-flush stage, the user can configure the system based on the configuration programming software platform. The value of the characteristic attribute of each functional component in the component collection can be modified on the display interface to control the pre-flushing process of the blood purification equipment.

When it is determined that the blood purification equipment is in the blood purification stage, a collection of components in the blood purification stage is established, and multiple visual controls are displayed on the display interface based on the configuration programming software platform, where each visual control is related to the component in the blood purification stage. Each functional component of the collection (the functional components are: blood pump, heparin pump, blood detector, bubble detector, liquid level detector, arterial line, venous line, arterial clamp, venous clamp, heater, display screen) One-to-one correspondence; in the blood purification stage, users can modify the value of the characteristic attribute of each functional component in the component set on the display interface based on the configuration programming software platform to adjust the patient's blood purification treatment status at any time.

When it is determined that the blood purification equipment is in the blood return stage, a component set in the blood return stage is established, and multiple visual controls are displayed on the display interface based on the configuration programming software platform, where each visual control is related to each component set in the blood return stage. Functional components (the functional components are: blood pump, blood detector, bubble detector, liquid level detector, arterial pipeline, venous pipeline, arterial clamp, venous clamp, display screen) correspond one to one; during the blood return stage, Users can modify the value of the characteristic attribute of each functional component in the component set on the display interface based on the configuration programming software platform to control the blood return process of the blood purification equipment at any time.

Therefore, in the embodiment of the present application, when the blood purification equipment is in different blood purification treatment stages, specific visual controls are displayed on the display interface based on the configuration programming software platform, and specific functional components are configured to be controlled to ensure that the blood purification equipment is in different blood purification treatment stages. Purification equipment can be maintained in normal condition.

It should be noted that when the blood purification equipment is in operation, the blood purification equipment will generate blood purification parameters. The "operation status" here includes: pre-flush stage, blood purification stage, and blood return stage.

In some embodiments, in step S112, displaying multiple visual controls in the plug-in set on a display interface based on the configuration programming software platform may also include: sub-step S1121 and sub-step S1122.

Sub-step S1121: When displaying the visual control on the display interface based on the configuration programming software platform, according to the current blood purification treatment stage of the blood purification equipment and the preset blood purification treatment stage of the blood purification equipment and The one-to-one correspondence between the preset colors determines the color corresponding to the blood purification treatment stage in which the blood purification device is currently located.

Sub-step S1122: Mark the visual control with a color corresponding to the blood purification treatment stage currently in which the blood purification device is.

Specifically, when the blood purification equipment is in different blood purification treatment stages, the visual controls displayed on the display interface based on the configuration programming software platform appear in a specific color. As soon as the user sees the display based on the configuration programming software platform The color of the visual control on the interface can tell what blood purification treatment stage the blood purification equipment is in, and the user can more accurately understand the operating status of the blood purification equipment. Taking Figure 4 as an example, the visual controls displayed on the display interface based on the configuration programming software platform present a specific color. For example, the visual controls appear in red. When the user sees that the visual controls are red, it means that the blood purification equipment is in pre-flush. stage. Therefore, the configuration and programming software platform in the embodiment of the present application has a more intuitive and convenient control function.

In some embodiments, when the current blood purification treatment stage of the blood purification device is the blood purification stage, one of the plurality of visual controls is a third visual control, and the third visual control is related to the blood purification stage. The display screens of the above blood purification equipment correspond one to one.

At this time, the method may further include: steps S115 to S117.

Step S115: When a user's selection operation on the third visual control is detected, display the components of the treatment interface of the display screen and the control layout of the treatment interface of the display screen on the configuration programming software platform. .

Step S116: When the user's modification operation on the components of the treatment interface of the display screen is detected, determine the components of the modified treatment interface of the display screen, and set the components of the modified treatment interface of the display screen. The elements are sent to the blood purification equipment so that the display screen of the blood purification equipment displays a treatment interface, and the treatment interface displayed on the display screen includes the constituent elements of the treatment interface of the modified display screen.

Step S117: When the user's modification operation on the control layout of the treatment interface of the display screen is detected, determine the control layout of the modified treatment interface of the display screen, and assign the controls of the modified treatment interface of the display screen to The layout is sent to the blood purification equipment, so that the display screen of the blood purification equipment displays a treatment interface, and the treatment interface displayed on the display screen is displayed according to the control layout of the treatment interface of the modified display screen.

When the blood purification equipment is in the blood purification stage and the patient's blood is receiving blood purification treatment, the treatment interface of the blood purification equipment display screen needs to display various parameters related to the blood purification treatment, and the treatment interface of the blood purification equipment display screen also needs to display various parameters related to the blood purification treatment. The blood purification treatment instructions output by the user will be received; the third visual control corresponds to the display screen of the blood purification equipment one-to-one. On the configuration programming software platform, the display content of the treatment interface of the blood purification equipment display during the blood purification stage can be controlled through the third visual control, so that the user can directly see the treatment interface on the display screen of the blood purification equipment. The patient's blood purification treatment status brings great convenience to the patient's blood purification treatment process.

The display content of the treatment interface on the display screen includes two aspects: component elements and control layout. The component elements of the treatment interface refer to: what content needs to be displayed on the treatment interface; the control layout of the treatment interface refers to: the arrangement of the controls displayed on the treatment interface. . Once the components of the treatment interface and the control layout of the treatment interface are determined, it is equivalent to determining the treatment interface of the display screen of the blood purification equipment.

For example, please refer to Figure 8. If the user needs to modify the display content of the treatment interface on the display screen, the user triggers the third visual control on the display interface based on the configuration programming software platform. The components of the treatment interface and the control layout of the treatment interface are displayed on the interface; as shown in Figure 9, if the user needs to modify the components of the treatment interface on the display screen, the user can trigger " button, the characteristic attributes of at least one functional component will be displayed on the display interface based on the configuration programming software platform, such as the characteristic attributes of the functional components displayed on the display interface based on the configuration programming software platform in Figure 9 are: the speed of the blood pump, the speed of the heparin pump, the liquid level of the liquid level detector,... The user selects the characteristic attribute of at least one functional component on the display interface based on the configuration programming software platform, and the value of the characteristic attribute of the selected at least one functional component constitutes the component elements of the treatment interface of the display screen, such as in Figure 9 On the display interface based on the configuration programming software platform, the user selects the rotation speed of the blood pump, the liquid level of the liquid level detector, and the color value of the blood detector (these three are selected with twill markings in Figure 9); Then the value of the rotational speed of the blood pump, the value of the liquid level of the liquid level detector, and the value of the color value of the blood detector constitute the components of the treatment interface of the modified display screen. In the blood purification stage, The user can see at any time on the display screen of the blood purification equipment: the value of the blood pump's rotational speed, the value of the liquid level of the liquid level detector, and the value of the color value of the blood detector. Users can understand the patient in real time. blood purification treatment status.

For example, please refer to Figure 10. If the user modifies the control layout of the treatment interface of the display screen, the user can trigger the "Control Layout" button on the display interface based on the configuration programming software platform. All the components of the treatment interface of the display will be displayed on the display interface. The user can modify the placement of all components on the display interface based on the configuration programming software platform according to the viewing habits. The modified placement of the components It is the control layout of the treatment interface of the modified display screen, and the treatment interface displayed on the display screen will be displayed according to the control layout of the treatment interface of the modified display screen to conform to the user's viewing habits. For example, all the components of the treatment interface on the display screen include: the value of the rotational speed of the blood pump, the value of the liquid level of the liquid level detector, and the value of the color value of the blood detector; if the user modifies the value of the treatment interface on the display screen, When the control is laid out, the display interface based on the configuration programming software platform will display the placement of all components of the treatment interface. When the user modifies the placement of these three components in the display area, as shown in Figure 10 display, the placement of all components of the modified treatment interface constitutes the control layout of the modified treatment interface of the display screen, and the treatment interface displayed on the display screen will follow the control layout of the modified treatment interface of the display screen. Display: the value of the rotational speed of the blood pump, the value of the liquid level of the liquid level detector, and the value of the color value of the blood detector, as shown in Figure 11.

The following two points need to be explained: First, modifying the control layout of the treatment interface on the display screen in S117 will display all the components of the treatment interface on the display screen. The "component elements" here can be: the display modified by the user in S116 The components of the treatment interface of the screen may also be: the components of the treatment interface of the display screen pre-stored in the blood purification equipment. Second, only when the blood purification equipment is in the blood purification stage, the third visual control will be displayed on the display interface based on the configuration programming software platform, and will not be displayed in other stages (such as the pre-flush stage, blood return stage) The third visual control, because the blood purification equipment will only display the treatment interface during the blood purification stage, the user needs to check the patient's blood purification treatment status through the treatment interface; there is no need to check the patient in other stages (such as the pre-flush stage, blood return stage) blood purification treatment state; therefore, the embodiment of the present application is suitable for the blood purification stage of the blood purification equipment.

Through the above method, users can freely decide which parameters to display on the treatment interface according to their own needs, and users can freely decide how to place these parameters on the treatment interface according to their own viewing habits; therefore, it can bring greater operational convenience to users. The treatment interface displayed on the display screen of the blood purification equipment can fully meet the actual viewing needs of the user and ensure the safe operation of the blood purification equipment during the blood purification stage.

In some embodiments, one of the plurality of visual controls is a display screen module control, and the display screen module control corresponds one-to-one to the display screen of the blood purification device.

At this time, the method may further include: step S118 to step S121.

Step S118: When a user's selection operation on the display screen module control is detected, display the screen saver time and screen saver mode of the display screen.

Step S119: When the user's modification operation for the screen saver time is detected, determine the screen saver time modified by the user, and send the modified screen saver time to the blood purification device, so that the display screen of the blood purification device will be modified. The last screen save time is used as the screen save condition.

Step S120: When the user's modification operation on the screen saver mode is detected, and it is determined that the screen saver mode modified by the user is the status display mode, display at least one of the blood purification equipment on the display interface based on the configuration programming software platform. The characteristic attribute of the functional component. When a user's selection operation on the characteristic attribute of the at least one functional component is detected, the value of the characteristic attribute of the selected functional component is determined as the screensaver interface of the display screen. When the When the non-triggered time of the display screen of the blood purification device is greater than or equal to the screensaver time of the display screen, the determined screensaver interface is sent to the blood purification device, so that the display screen of the blood purification device displays the determined screen saver interface. Screen saver interface.

Step S121: When the user's modification operation on the screen saver mode is detected, and the screen saver mode modified by the user is determined to be a black screen display mode, when the non-triggered time of the display screen of the blood purification device is greater than or equal to the display screen During the screen saver time, the black screen display mode is sent to the blood purification device, so that the display screen of the blood purification device displays a black screen.

Specifically, the screen saver is a specialized method designed to protect the display screen. It is designed to solve the problem of the display screen displaying the same screen at high brightness for a long time due to no one operating it, resulting in the aging of the display screen and shortening the life of the display screen. Screensavers can protect privacy, save power, and reduce display aging. The embodiment of the present application performs configuration control on the screensaver of the display screen through a display interface based on a configuration programming software platform. The screen saver of the display screen includes two aspects: screen saver time and screensaver mode. Taking Figure 12 as an example, when the user triggers the display module control, it means that the user needs to modify the screen saver control method of the display screen of the blood purification equipment, and display the screen saver time and screen saver of the display screen on the display interface based on the configuration programming software platform mode, users can modify the screen saver time and screen saver mode on the display interface based on the configuration programming software platform. For example, when the user changes the screen saver time of the display screen to: 2 minutes, the display screen of the blood purification equipment will use 2 minutes as the screen saver condition. When the non-triggered time of the display screen is greater than or equal to the screen saver time of the display screen (2 minutes), the screen saver conditions of the display screen are met, and the display screen of the blood purification equipment will display the save interface.

The user can also modify the screen saver mode of the display screen. As shown in Figure 12, when the user triggers the "screen saver mode" button on the display interface based on the configuration programming software platform, the user can switch between the black screen display mode and the status display mode. Switch at will, send the modified screen saver mode to the blood purification equipment, and control the blood purification equipment to display according to the modified screen saver mode. For example, the user changes the screensaver mode of the display screen to a black screen display mode. When the screen saver conditions are met, the display screen of the blood purification equipment is controlled to display a black screen. For another example, if the user changes the screen saver mode of the display screen to the status display mode, the characteristic attributes of at least one functional component of the blood purification equipment will be displayed on the display interface based on the configuration programming software platform, as shown in Figure 13. If the user selects The speed of the blood pump, the value of the speed of the blood pump is used as the screensaver interface of the display screen. It should be noted that the "value of the blood pump speed" here is a real-time value, which represents the real-time speed of the blood pump of the blood purification equipment. The "value of the blood pump speed" is not constant. When the non-triggered time of the display screen of the blood purification device is greater than or equal to the screensaver time of the display screen, the display screen of the blood purification device is controlled to display a saver interface, as shown in Figure 14. When the display screen enters the screensaver interface, the user You can see the changes in the speed of the blood pump at any time, and then judge whether the operation of the blood pump is in a fault state; similarly, the user can also set the value of the speed of the heparin pump or the liquid level of the liquid level detector according to actual control needs. The value is used as the screen saver of the display screen. When the display screen enters the screen saver, the operational safety, compatibility and scalability of the functional components of the blood purification equipment can be independently monitored.

It should be noted that in the status display mode, when the display screen enters the screen saver, only the values of the characteristic attributes of the selected functional components displayed on the screen saver interface are highlighted, and the remaining areas of the screen saver interface will be displayed on a black screen. , this method can ensure the security of the screen saver. If all areas of the display screen are highlighted in status display mode, this method is equivalent to not using a screen saver. Therefore, you need to understand the screen saver method in status display mode.

In some embodiments, the method may further include: step S122.

Step S122: When it is determined that the blood purification equipment is in a faulty operating state according to the blood purification parameters, display a fault prompt signal on the display interface based on the configuration programming software platform.

Specifically, the blood purification parameters include: the rotation speed of the blood pump and the rotation speed of the heparin pump; when it is determined based on the blood purification parameters that the rotation speed of the bleeding pump is too high or the rotation speed of the heparin pump is too high, it is judged that the blood purification equipment is in a faulty operating state; Display a fault prompt signal (for example, display a warning light source) on the display interface based on the configuration programming software platform to issue a prompt to the user. Therefore, in the embodiment of the present application, the user can know that the blood purification equipment is faulty as soon as he notices the fault prompt signal, which is conducive to troubleshooting and troubleshooting of the blood purification equipment.

In some embodiments, the method may further include:

Step S123: According to the first disabling instruction of the functional component sent by the blood purification equipment currently in operation, set the visual control corresponding to the functional component to a disabled state on the display interface based on the configuration programming software platform, Set the remaining visual controls to active state.

After the blood purification equipment is powered on and started, if the blood purification equipment sends the first disabling instruction of the functional component, the functional component needs to be locked, and the value of the characteristic attribute of the functional component cannot be modified; the specific method is: according to The first disabling instruction sets the visual control corresponding to the functional component to the disabled state on the display interface based on the configuration programming software platform, and sets the remaining visual controls to the activated state on the display interface based on the configuration programming software platform; the user Only activated visual controls can be triggered; users cannot trigger disabled visual controls. Embodiments of the present application can disable specific functional components so that the values of characteristic attributes of specific functional components cannot be changed, thereby improving the security and safety of configuration programming and configuration control of functional components of blood purification equipment. Accuracy.

When the blood purification equipment is at certain special times, the values of the characteristic attributes of specific functional components on the blood purification equipment cannot be changed, so as to ensure the operational safety of the functional components of the blood purification equipment; for example, the liquid level adjustment in the intravenous pot During this period, the speed of the blood pump of the blood purification equipment cannot be adjusted, because once the speed of the blood pump is adjusted, the blood flow connected to the venous pot will change, and the liquid level adjustment error of the venous pot will be large. , the fluid level of the intravenous pot is easily in an unsafe state. During the liquid level adjustment of the intravenous pot, the blood purification equipment sends the first disabling instruction of the blood pump to the terminal device, and the terminal device sets the first disabling instruction corresponding to the blood pump on the display interface based on the configuration programming software platform according to the first disabling instruction. The visual control is set to the disabled state; the remaining visual controls (such as the second visual control corresponding to the heparin pump, the third visual control corresponding to the display screen, etc.) on the display interface based on the configuration programming software platform are set to the activated state. Taking Figure 4 as an example, on the display interface based on the configuration programming software platform, the first visual control corresponding to the blood pump is represented by a slash, which represents the disabled state; heparin pump, dialysis pump, liquid level detector, display The visual controls corresponding to the screen and temperature detector are not represented by slashes, which represents the activation state. The user cannot trigger the first visual control corresponding to the blood pump, and cannot change the characteristic attributes of the blood pump of the blood purification equipment on the display interface based on the configuration programming software platform (the characteristic attributes of the blood pump include: the rotation speed of the blood pump and the Change the value of the steering), thus ensuring that during the liquid level adjustment of the intravenous pot, the value of the rotational speed of the blood pump of the blood purification equipment and the value of the steering of the blood pump of the blood purification equipment will remain constant, improving Level adjustment accuracy of intravenous pots.

It should be noted that when it is necessary to disable a specific functional component on the blood purification equipment, the first disabling instruction of the functional component is issued by the blood purification equipment. The blood purification equipment will automatically detect which functional components whose characteristic attributes cannot be changed, or the user has set on the blood purification equipment which functional components whose characteristic attributes cannot be changed. The blood purification equipment will send a specific message. When the functional component receives the first disabling instruction, the terminal device will receive the first disabling instruction.

This application also provides a terminal device. It should be noted that the terminal device in the embodiment of this application can implement the above control method of the blood purification device. For detailed description of the relevant content, please refer to the above method section, which will not be described again here.

The terminal device includes: a communication circuit, a memory and a processor; the communication circuit is used for communication, the memory is used for storing a computer program, the processor is used for executing the computer program and when executing the computer program, Implement the control method of blood purification equipment as described in any one of the above. Among them, the communication circuit and the memory are connected to the processor through the bus.

Among them, the processor can be a micro control unit, a central processing unit or a digital signal processor, etc. The memory can be a Flash chip, read-only memory, magnetic disk, optical disk, U disk or mobile hard disk, etc.

The present application also provides a computer-readable storage medium that stores a computer program. When the computer program is executed by a processor, the processor can control the blood purification device as described above. method. For detailed description of the relevant content, please refer to the relevant content of the above-mentioned control method of the blood purification equipment, which will not be described again here.

Wherein, the computer-readable storage medium may be an internal storage unit of the above-mentioned terminal device, such as a hard disk or a memory. The computer-readable storage medium can also be an external storage device, such as a plug-in hard drive, a smart memory card, a secure digital card, a flash memory card, etc.

It should be understood that the terminology used in the specification of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

It will also be understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

The above are only specific embodiments of the present application, but the protection scope of the present application is not limited thereto. Any person familiar with the technical field can easily think of various equivalent methods within the technical scope disclosed in the present application. Modification or replacement, these modifications or replacements shall be covered by the protection scope of this application. Therefore, the protection scope of this application should be subject to the protection scope of the claims.

Claims (10)

1. A control method of a blood purification apparatus, characterized in that the method is applied to a terminal apparatus capable of communicating with the blood purification apparatus, the method comprising:

when detecting that a user selects one of a plurality of visual controls displayed on a display interface based on a configuration programming software platform, displaying the values of the characteristic attributes of the functional components corresponding to the selected visual control, wherein the plurality of visual controls are in one-to-one correspondence with the plurality of functional components of the blood purifying device, and the values of the characteristic attributes of the plurality of functional components are obtained after the terminal device analyzes the blood purifying parameters of the plurality of functional components sent by the blood purifying device in the current running state;

When the modification operation of the user on the value of the characteristic attribute of the functional component corresponding to the selected visual control is detected, determining the value modified by the user, and sending the modified value to the blood purification equipment, so that the selected functional component of the blood purification equipment operates according to the modified value.

2. The method of claim 1, wherein the configuration programming software platform based display interface comprises a first display area, a second display area, and a third display area, wherein the plurality of visual controls are displayed in the first display area, and wherein each of the visual controls in the first display area is in a non-editable state;

when detecting the selection operation of a user on one of the visual controls displayed on the display interface of the configuration programming software platform, displaying the value of the characteristic attribute of the functional component corresponding to the selected visual control, including:

when the drag operation of a user on one of the visual controls is detected, dragging the selected visual control of the first display area to the second display area for display, and controlling the visual control displayed in the second display area to be in an editable state;

And displaying the value of the characteristic attribute of the functional component corresponding to the visual control displayed in the second display area in the third display area.

3. The method according to claim 1, wherein, when detecting a selection operation of a user on one of the plurality of visual controls displayed on the display interface of the configuration programming software platform, displaying a value of a feature attribute of a functional component corresponding to the selected visual control, includes:

and when detecting that the user selects one of the visual controls displayed on the display interface based on the configuration programming software platform and the functional component corresponding to the selected visual control has relevance to other functional components, displaying the value of the characteristic attribute of the functional component corresponding to the selected visual control and the value of the other functional components having relevance to the selected functional component.

4. The method of claim 3, wherein the functional components of the blood purification apparatus include a blood pump and a heparin pump, and wherein the plurality of visual controls includes a first visual control and a second visual control that are associated, the first visual control being in one-to-one correspondence with the blood pump and the second visual control being in one-to-one correspondence with the heparin pump;

The method further comprises the steps of:

when the selection operation of a user on the first visual control displayed on the display interface based on the configuration programming software platform is detected, displaying the value of the rotating speed of the blood pump and the value of the rotating speed of the heparin pump;

when detecting the modification operation of the user on the rotation speed of the blood pump, determining the value of the rotation speed of the modified heparin pump according to the value of the rotation speed of the modified blood pump, and sending the value of the rotation speed of the modified blood pump and the value of the rotation speed of the modified heparin pump to the blood purification equipment, so that the blood pump of the blood purification equipment runs according to the value of the rotation speed of the modified blood pump, and the heparin pump of the blood purification equipment runs according to the value of the rotation speed of the modified heparin pump;

when the selection operation of the user on the second visual control displayed on the display interface based on the configuration programming software platform is detected, displaying the value of the rotating speed of the heparin pump and the value of the rotating speed of the blood pump;

when the modification operation of the user on the rotation speed of the heparin pump is detected, determining the value of the rotation speed of the modified heparin pump, determining the value of the rotation speed of the modified blood pump according to the value of the rotation speed of the modified heparin pump, and sending the value of the rotation speed of the modified heparin pump and the value of the rotation speed of the modified blood pump to the blood purification equipment, so that the heparin pump of the blood purification equipment runs according to the value of the rotation speed of the modified heparin pump, and the blood pump of the blood purification equipment runs according to the value of the rotation speed of the modified blood pump.

5. The method according to claim 1, wherein the method further comprises:

programming modeling is carried out according to each functional component of the blood purifying equipment, and a visual control corresponding to each functional component is obtained;

packaging all visual controls of the blood purification equipment to obtain a plug-in set of the blood purification equipment;

storing the plug-in assembly of the blood purifying device in a database of the configuration programming software platform;

when detecting the selection operation of the user on one of the visual controls displayed on the display interface of the configuration programming software platform, before displaying the value of the characteristic attribute of the functional component corresponding to the selected visual control, the method further comprises:

and when the plug-in set invoking operation input by the user is detected, displaying a plurality of visual controls in the plug-in set on a display interface based on the configuration programming software platform.

6. The method of claim 5, wherein the plurality of functional components are a plurality of the functional components of a set of components under a blood purification treatment stage in which the blood purification apparatus is currently located; the displaying the plurality of visual controls in the plug-in set on the display interface based on the configuration programming software platform comprises the following steps:

When the visual control is displayed on a display interface based on a configuration programming software platform, determining the color corresponding to the current blood purification treatment stage of the blood purification equipment according to the current blood purification treatment stage of the blood purification equipment and the one-to-one correspondence between the preset blood purification treatment stage and the preset color of the blood purification equipment;

and marking the visual control as a color corresponding to the current blood purification treatment stage of the blood purification equipment.

7. The method of claim 6, wherein when the current blood purification treatment stage of the blood purification device is a blood purification stage, one of the plurality of visual controls is a third visual control, the third visual control being in one-to-one correspondence with a display screen of the blood purification device;

the method further comprises the steps of:

when the selection operation of the user for the third visual control is detected, the component elements of the treatment interface of the display screen and the control layout of the treatment interface of the display screen are displayed on the configuration programming software platform;

when detecting the modification operation of a user on the components of the treatment interface of the display screen, determining the components of the treatment interface of the modified display screen, and sending the components of the treatment interface of the modified display screen to the blood purification equipment so that the display screen of the blood purification equipment displays the treatment interface, wherein the treatment interface displayed by the display screen comprises the components of the treatment interface of the modified display screen;

When the modification operation of the user on the control layout of the treatment interface of the display screen is detected, determining the control layout of the treatment interface of the modified display screen, and sending the control layout of the treatment interface of the modified display screen to the blood purification equipment, so that the treatment interface is displayed on the display screen of the blood purification equipment, and the treatment interface displayed on the display screen is displayed according to the control layout of the treatment interface of the modified display screen.

8. The method of claim 1, wherein one of the plurality of visual controls is a display screen module control, the display screen module control being in one-to-one correspondence with a display screen of the blood purification device; the method further comprises the steps of:

when detecting the selection operation of a user for the display screen module control, displaying the screen protection time and the screen protection mode of the display screen;

when the modification operation of the user on the screen saver time is detected, determining the screen saver time modified by the user, and sending the modified screen saver time to the blood purification equipment, so that a display screen of the blood purification equipment takes the modified screen saver time as a screen saver condition;

When a modification operation of a user for the screen protection mode is detected, and the screen protection mode modified by the user is determined to be a state display mode, displaying the characteristic attribute of at least one functional component of the blood purification device on a display interface based on a configuration programming software platform, when a selection operation of the user for the characteristic attribute of the at least one functional component is detected, determining a value of the characteristic attribute of the selected functional component as the screen protection interface of the display screen, and when the non-triggered time of the display screen of the blood purification device is greater than or equal to the screen protection time of the display screen, transmitting the determined screen protection interface to the blood purification device, so that the display screen of the blood purification device displays the determined screen protection interface;

when the modification operation of the user on the screen protection mode is detected, the screen protection mode modified by the user is determined to be a black screen display mode, and when the non-triggered time of the display screen of the blood purification device is greater than or equal to the screen protection time of the display screen, the black screen display mode is sent to the blood purification device, so that the display screen of the blood purification device performs black screen display.

9. A terminal device, characterized in that the terminal device comprises: communication circuitry, memory, and a processor; the communication circuit is for communication, the memory is for storing a computer program, and the processor is for executing the computer program and for implementing a method of controlling a blood purification device according to any one of claims 1-8 when the computer program is executed.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which, when executed by a processor, causes the processor to realize the control method of the blood purification apparatus according to any one of claims 1 to 8.